/******************************************************************\ * Microsoft Windows NT * * Copyright(c) Microsoft Corp., 1992-1996 * \******************************************************************/ /*++ Module Name: RASSAPI.H Description: This file contains the RASADMIN structures, defines and function prototypes for the following APIs and they can be imported from RASSAPI.DLL: RasAdminServerGetInfo RasAdminGetUserAccountServer RasAdminUserSetInfo RasAdminUserGetInfo RasAdminPortEnum RasAdminPortGetInfo RasAdminPortClearStatistics RasAdminPortDisconnect RasAdminFreeBuffer Note: This header file and the sources containing the APIs will work only with UNICODE strings. --*/ #ifndef _RASSAPI_H_ #define _RASSAPI_H_ #ifndef UNLEN #include #endif #define RASSAPI_MAX_PHONENUMBER_SIZE 128 #define RASSAPI_MAX_MEDIA_NAME 16 #define RASSAPI_MAX_PORT_NAME 16 #define RASSAPI_MAX_DEVICE_NAME 128 #define RASSAPI_MAX_DEVICETYPE_NAME 16 #define RASSAPI_MAX_PARAM_KEY_SIZE 32 // Bits indicating user's Remote Access privileges and mask to isolate // call back privilege. // // Note: Bit 0 MUST represent NoCallback due to a quirk of the "userparms" // storage method. When a new LAN Manager user is created, bit 0 of the // userparms field is set to 1 and all other bits are 0. These bits are // arranged so this "no Dial-In info" state maps to the "default Dial-In // privilege" state. #define RASPRIV_NoCallback 0x01 #define RASPRIV_AdminSetCallback 0x02 #define RASPRIV_CallerSetCallback 0x04 #define RASPRIV_DialinPrivilege 0x08 #define RASPRIV_CallbackType (RASPRIV_AdminSetCallback \ | RASPRIV_CallerSetCallback \ | RASPRIV_NoCallback) // // Modem condition codes // #define RAS_MODEM_OPERATIONAL 1 // No modem errors. #define RAS_MODEM_NOT_RESPONDING 2 #define RAS_MODEM_HARDWARE_FAILURE 3 #define RAS_MODEM_INCORRECT_RESPONSE 4 #define RAS_MODEM_UNKNOWN 5 // // Line condition codes // #define RAS_PORT_NON_OPERATIONAL 1 #define RAS_PORT_DISCONNECTED 2 #define RAS_PORT_CALLING_BACK 3 #define RAS_PORT_LISTENING 4 #define RAS_PORT_AUTHENTICATING 5 #define RAS_PORT_AUTHENTICATED 6 #define RAS_PORT_INITIALIZING 7 // The following three structures are same as the ones // defined in rasman.h and have been renamed to prevent // redefinitions when both header files are included. enum RAS_PARAMS_FORMAT { ParamNumber = 0, ParamString = 1 } ; typedef enum RAS_PARAMS_FORMAT RAS_PARAMS_FORMAT ; union RAS_PARAMS_VALUE { DWORD Number ; struct { DWORD Length ; PCHAR Data ; } String ; } ; typedef union RAS_PARAMS_VALUE RAS_PARAMS_VALUE ; struct RAS_PARAMETERS { CHAR P_Key [RASSAPI_MAX_PARAM_KEY_SIZE] ; RAS_PARAMS_FORMAT P_Type ; BYTE P_Attributes ; RAS_PARAMS_VALUE P_Value ; } ; typedef struct RAS_PARAMETERS RAS_PARAMETERS ; // structures used by the RASADMIN APIs typedef struct _RAS_USER_0 { BYTE bfPrivilege; WCHAR szPhoneNumber[ RASSAPI_MAX_PHONENUMBER_SIZE + 1]; } RAS_USER_0, *PRAS_USER_0; typedef struct _RAS_PORT_0 { WCHAR wszPortName[RASSAPI_MAX_PORT_NAME]; WCHAR wszDeviceType[RASSAPI_MAX_DEVICETYPE_NAME]; WCHAR wszDeviceName[RASSAPI_MAX_DEVICE_NAME]; WCHAR wszMediaName[RASSAPI_MAX_MEDIA_NAME]; DWORD reserved; DWORD Flags; WCHAR wszUserName[UNLEN + 1]; WCHAR wszComputer[NETBIOS_NAME_LEN]; DWORD dwStartSessionTime; // seconds from 1/1/1970 WCHAR wszLogonDomain[DNLEN + 1]; BOOL fAdvancedServer; } RAS_PORT_0, *PRAS_PORT_0; // Possible values for MediaId #define MEDIA_UNKNOWN 0 #define MEDIA_SERIAL 1 #define MEDIA_RAS10_SERIAL 2 #define MEDIA_X25 3 #define MEDIA_ISDN 4 // Possible bits set in Flags field #define USER_AUTHENTICATED 0x0001 #define MESSENGER_PRESENT 0x0002 #define PPP_CLIENT 0x0004 #define GATEWAY_ACTIVE 0x0008 #define REMOTE_LISTEN 0x0010 #define PORT_MULTILINKED 0x0020 typedef ULONG IPADDR; // The following PPP structures are same as the ones // defined in rasppp.h and have been renamed to prevent // redefinitions when both header files are included // in a module. /* Maximum length of address string, e.g. "255.255.255.255" for IP. */ #define RAS_IPADDRESSLEN 15 #define RAS_IPXADDRESSLEN 22 #define RAS_ATADDRESSLEN 32 typedef struct _RAS_PPP_NBFCP_RESULT { DWORD dwError; DWORD dwNetBiosError; CHAR szName[ NETBIOS_NAME_LEN + 1 ]; WCHAR wszWksta[ NETBIOS_NAME_LEN + 1 ]; } RAS_PPP_NBFCP_RESULT; typedef struct _RAS_PPP_IPCP_RESULT { DWORD dwError; WCHAR wszAddress[ RAS_IPADDRESSLEN + 1 ]; } RAS_PPP_IPCP_RESULT; typedef struct _RAS_PPP_IPXCP_RESULT { DWORD dwError; WCHAR wszAddress[ RAS_IPXADDRESSLEN + 1 ]; } RAS_PPP_IPXCP_RESULT; typedef struct _RAS_PPP_ATCP_RESULT { DWORD dwError; WCHAR wszAddress[ RAS_ATADDRESSLEN + 1 ]; } RAS_PPP_ATCP_RESULT; typedef struct _RAS_PPP_PROJECTION_RESULT { RAS_PPP_NBFCP_RESULT nbf; RAS_PPP_IPCP_RESULT ip; RAS_PPP_IPXCP_RESULT ipx; RAS_PPP_ATCP_RESULT at; } RAS_PPP_PROJECTION_RESULT; typedef struct _RAS_PORT_1 { RAS_PORT_0 rasport0; DWORD LineCondition; DWORD HardwareCondition; DWORD LineSpeed; // in bits/second WORD NumStatistics; WORD NumMediaParms; DWORD SizeMediaParms; RAS_PPP_PROJECTION_RESULT ProjResult; } RAS_PORT_1, *PRAS_PORT_1; typedef struct _RAS_PORT_STATISTICS { // The connection statistics are followed by port statistics // A connection is across multiple ports. DWORD dwBytesXmited; DWORD dwBytesRcved; DWORD dwFramesXmited; DWORD dwFramesRcved; DWORD dwCrcErr; DWORD dwTimeoutErr; DWORD dwAlignmentErr; DWORD dwHardwareOverrunErr; DWORD dwFramingErr; DWORD dwBufferOverrunErr; DWORD dwBytesXmitedUncompressed; DWORD dwBytesRcvedUncompressed; DWORD dwBytesXmitedCompressed; DWORD dwBytesRcvedCompressed; // the following are the port statistics DWORD dwPortBytesXmited; DWORD dwPortBytesRcved; DWORD dwPortFramesXmited; DWORD dwPortFramesRcved; DWORD dwPortCrcErr; DWORD dwPortTimeoutErr; DWORD dwPortAlignmentErr; DWORD dwPortHardwareOverrunErr; DWORD dwPortFramingErr; DWORD dwPortBufferOverrunErr; DWORD dwPortBytesXmitedUncompressed; DWORD dwPortBytesRcvedUncompressed; DWORD dwPortBytesXmitedCompressed; DWORD dwPortBytesRcvedCompressed; } RAS_PORT_STATISTICS, *PRAS_PORT_STATISTICS; // // Server version numbers // #define RASDOWNLEVEL 10 // identifies a LM RAS 1.0 server #define RASADMIN_35 35 // Identifies a NT RAS 3.5 server or client #define RASADMIN_CURRENT 40 // Identifies a NT RAS 4.0 server or client typedef struct _RAS_SERVER_0 { WORD TotalPorts; // Total ports configured on the server WORD PortsInUse; // Ports currently in use by remote clients DWORD RasVersion; // version of RAS server } RAS_SERVER_0, *PRAS_SERVER_0; // // function prototypes // DWORD APIENTRY RasAdminServerGetInfo( IN const WCHAR * lpszServer, OUT PRAS_SERVER_0 pRasServer0 ); DWORD APIENTRY RasAdminGetUserAccountServer( IN const WCHAR * lpszDomain, IN const WCHAR * lpszServer, OUT LPWSTR lpszUserAccountServer ); DWORD APIENTRY RasAdminUserGetInfo( IN const WCHAR * lpszUserAccountServer, IN const WCHAR * lpszUser, OUT PRAS_USER_0 pRasUser0 ); DWORD APIENTRY RasAdminUserSetInfo( IN const WCHAR * lpszUserAccountServer, IN const WCHAR * lpszUser, IN const PRAS_USER_0 pRasUser0 ); DWORD APIENTRY RasAdminPortEnum( IN const WCHAR * lpszServer, OUT PRAS_PORT_0 * ppRasPort0, OUT WORD * pcEntriesRead ); DWORD APIENTRY RasAdminPortGetInfo( IN const WCHAR * lpszServer, IN const WCHAR * lpszPort, OUT RAS_PORT_1 * pRasPort1, OUT RAS_PORT_STATISTICS * pRasStats, OUT RAS_PARAMETERS ** ppRasParams ); DWORD APIENTRY RasAdminPortClearStatistics( IN const WCHAR * lpszServer, IN const WCHAR * lpszPort ); DWORD APIENTRY RasAdminPortDisconnect( IN const WCHAR * lpszServer, IN const WCHAR * lpszPort ); DWORD APIENTRY RasAdminFreeBuffer( PVOID Pointer ); DWORD APIENTRY RasAdminGetErrorString( IN UINT ResourceId, OUT WCHAR * lpszString, IN DWORD InBufSize ); BOOL APIENTRY RasAdminAcceptNewConnection ( IN RAS_PORT_1 * pRasPort1, IN RAS_PORT_STATISTICS * pRasStats, IN RAS_PARAMETERS * pRasParams ); VOID APIENTRY RasAdminConnectionHangupNotification ( IN RAS_PORT_1 * pRasPort1, IN RAS_PORT_STATISTICS * pRasStats, IN RAS_PARAMETERS * pRasParams ); DWORD APIENTRY RasAdminGetIpAddressForUser ( IN WCHAR * lpszUserName, IN WCHAR * lpszPortName, IN OUT IPADDR * pipAddress, OUT BOOL * bNotifyRelease ); VOID APIENTRY RasAdminReleaseIpAddress ( IN WCHAR * lpszUserName, IN WCHAR * lpszPortName, IN IPADDR * pipAddress ); // The following two APIs are used to get/set // RAS user permissions in to a UsrParms buffer // obtained by a call to NetUserGetInfo. // // Note that RasAdminUserGetInfo and RasAdminUserSetInfo // are the APIs you should be using for getting and // setting RAS permissions. DWORD APIENTRY RasAdminGetUserParms( IN WCHAR * lpszParms, OUT PRAS_USER_0 pRasUser0 ); DWORD APIENTRY RasAdminSetUserParms( IN OUT WCHAR * lpszParms, IN DWORD cchNewParms, IN PRAS_USER_0 pRasUser0 ); #endif // _RASSAPI_H_